The disclosed technology includes self-inflating animal harness systems. The self-inflating harness system can include a harness configured to be secured to an animal, an airbag attached to the harness and configured to inflate to protect the animal, and a controller in communication with the airbag. The controller can be configured to receive data from one or more sensors and determine, based on the received data, whether the data is indicative of a collision. In response to determining that the data is indicative of a collision, the controller can be configured to output a control signal to the airbag to cause the airbag to inflate.

A restraint control module is configured to communicate a sync pulse to a sensor. The control module includes a first sync pulse driver and a second sync pulse driver. The first sync pulse driver is connected to a first signal line and the second sync pulse driver connected to a second signal line. The first and second sync pulse drivers being configured to generate a differential sync pulse signal across the first signal line and second signal line using a first signal on the first signal line and a second signal on the second signal line.

A restraint control module is configured to communicate a sync pulse to a sensor. The control module includes a first sync pulse driver and a second sync pulse driver. The first sync pulse driver is connected to a first signal line and the second sync pulse driver connected to a second signal line. The first and second sync pulse drivers being configured to generate a differential sync pulse signal across the first signal line and second signal line using a first signal on the first signal line and a second signal on the second signal line.

A method for operating a sensor system for operating a sensor system includes electrically connecting sensors of a plurality of sensors to one another with a bus system. The method further includes communicating with the plurality of sensors over the bus system using a control device. The method further includes controlling one or more of the sensors of the plurality of sensors to transmit data to the control device with a predefinable bit width. The method further includes controlling one or more of the sensors of the plurality of sensors to transmit data to the control device with a reduced bit width. The sensor system includes the plurality of sensors and the control device.

The disclosed technology includes self-inflating animal harness systems. The self-inflating harness system can include a harness configured to be secured to an animal, an airbag attached to the harness and configured to inflate to protect the animal, and a controller in communication with the airbag. The controller can be configured to receive data from one or more sensors and determine, based on the received data, whether the data is indicative of a collision. In response to determining that the data is indicative of a collision, the controller can be configured to output a control signal to the airbag to cause the airbag to inflate.

The disclosed technology includes self-inflating animal harness systems. The self-inflating harness system can include a harness configured to be secured to an animal, an airbag attached to the harness and configured to inflate to protect the animal, and a controller in communication with the airbag. The controller can be configured to receive data from one or more sensors and determine, based on the received data, whether the data is indicative of a collision. In response to determining that the data is indicative of a collision, the controller can be configured to output a control signal to the airbag to cause the airbag to inflate.